隨著無線網路通訊技術的蓬勃發展，讓智慧居家環境整合更加速的發展。行動通訊裝置的普及化，與穿戴式裝置或家電更便利於傳輸與控制。由於電子元件技術的進步，促成了低成本、低耗電及多功能的裝置，來改善居家環境的清潔與安全。

本論文使用315MHz 無線射頻收發模組，為系統與裝置相互連結，以達到傳輸與控制功能。並且利用超音波技術、紫外線技術和電熱片技術整合與應用。以最低成本考量在不同情境與功能中，發明出不同的穿戴式裝置及新的居家清潔與安全等功能裝置。最後可以整合行動通訊系統與相關新創裝置互連，以達到智慧居家整合。

The wireless network communication technology which has flourished made the intelligent home application and environment integrated speed up development. The popularization of mobile communication devices has facilitated the tranamission and controll of wearable devices or household appliances. Due to advance in the electronic component technology, that has promoted low cost, low power consumption and multi functional devices which improved the cleanliness and safety of the home environment.

This thesis used the 315MHz wireless RF transceiver modules to interconnect between the systems and devices, in order to achieve the transmission and control functions. Moreover we utilized the integration and application of ultrasound technology, ultraviolet technology and heating sheet technology to invent different wearable devices and new home devices of cleaning and safety functions which have considered the lowest cost in distinct situations and functions. Finally, we can integrate the mobile communication system with the related devices to realize smart home consolidation.

[1] Yena Kim, SeungSeob Lee and SuKyoung Lee,"Coexistence of ZigBee-Based WBAN and WiFi for Health Telemonitoring Systems,"2016 IEEE Journal of Biomedical and Health Informatics, vol. 20, no. 1
[2] Liang-Hung Wang, Tsung-Yen Chen, Kuang-Hao Lin, Qiang Fang and Shuenn-Yuh Lee,"Implementation of a Wireless ECG Acquisition SoC for IEEE 802.15.4 (ZigBee) Applications, "2015 IEEE Journal of Biomedical and Health Informatics, vol. 19, no. 1
[3] Mario Collotta and Giovanni Pau," A Novel Energy Management Approach for Smart Homes Using Bluetooth Low Energy,"2015 IEEE Journal on Selected Areas in Communications, vol. 33, no. 12
[4] Ting Liang and Yong J. Yuan, " Wearable Medical Monitoring Systems Based on Wireless Networks: A Review, "2016 IEEE Sensors Journal, vol.16, no. 23
[5] Haik Kalantarian, Costas Sideris, Bobak Mortazavi, Nabil Alshurafa, and Majid Sarrafzadeh, "Dynamic Computation Offloading for Low-Power Wearable Health Monitoring Systems,"2017 IEEE Transactions on Biomedical engineering, vol. 64, no. 3
[6] Wei Liao, Jingjing Shi and Jianqing Wang, " Electromagnetic interference of wireless power transfer system on wearable electrocardiogram,"2016 IET Microw. Antennas Propag., vol. 11 lss. 3,pp 330-335
[7] Microwaves&RF(2014)。NFC Prepares For Wide Adoption，取自:
http://mwrf.com/active-components/nfc-prepares-wide-adoption
[8] 股感知識庫(2014)。近距離無線傳輸，取自:
https://www.stockfeel.com.tw/%E8%BF%91%E8%B7%9D%E9%9B%A2%E7%84%A1%E7%B7%9A%E5%82%B3%E8%BC%B8/
[9] 林鴻基(2011)。無線可靠度測試監控系統系。中華大學。碩士論文
[10] Edgefx (2017)。Block Diagram and Explanation of RF Transceivers，取自:
http://www.edgefxkits.com/blog/rf-transceiver-module-with-block-diagram-explanation/
[11] 今華電子(無日期)。315MHz無線發射/接收模組，取自:
http://www.jin-hua.com.tw/
[12] 盛群半導體(無日期)。HT-120E 和HT-12D晶片，取自:
http://www.holtek.com.tw/home
[13] 游忠科(2008)。應用品質機能展開與TRIZ綠色創新設計於筆記型電腦之研發。臺北科技大學。碩士論文
[14] 王威翔(2008)。散熱器對熱電致冷器之性能影響。交通大學。碩士論文
[15] 張希臨(2004)。微溫度感測器與加熱器之微熱晶片的設計與製造。成功大學。碩士論文
[16] 鄧崑堂(2004)。半導體陶瓷玻璃加熱器開發研究。中華大學。碩士論文
[17] 維基百科(2017)。超音波。取自:
https://zh.wikipedia.org/wiki/%E8%B6%85%E8%81%B2%E6%B3%A2
[18] 許文達(2005)。由市場接受度觀點探討超音波洗滌設備之推廣研究。中華大學。碩士論文
[19] 郭 鳳 瑞(2008)。超音波應用於果汁品質之檢測。中興大學。博士論文
[20] 維基百科(2018)。紫外線。取自:
https://zh.wikipedia.org/wiki/%E7%B4%AB%E5%A4%96%E7%BA%BF
[21] 龔晏瑩(2011)。新穎發紫外光螢光粉之製備與發光特性之研究。交通大學。碩士論文
[22] 維基百科(2018)。臭氧。取自:
https://zh.wikipedia.org/wiki/%E8%87%AD%E6%B0%A7
[23] 鄭伊利(2008)。以臭氧及紫外光程序去除氣體中橡膠臭味之研究。交通大學。碩士論文
[24] 蔡穎彰(2013)。利用微米氣泡處理法去除水中布洛芬之研究。東海大學。碩士論文